JPH0823434B2 - Air conditioner - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an air conditioner, and more particularly, to a drive structure for blowout blades in the air conditioner.

(Prior Art) For example, a ceiling-embedded air conditioner has an air conditioner installed above an appropriately sized opening 3 formed in a ceiling C as shown in FIGS. 15 and 16. Four air outlets formed by a main body 1 and a decorative panel 2 that is in contact with the lower surface of the air conditioner main body 1 and is configured to cover the opening 3. There are some that are designed to blow warm air or cold air W from 5, 5, 5 in all directions. Reference numeral 4 is an air suction port, 6 is a fan, and 7
Is a fan motor, 8 is an air heat exchanger, 9 is a drain pan,
Reference numeral 10 is a suction grill arranged in the air suction port 4, 11 is an air filter, 12 is a blowing blade for adjusting the wind direction arranged in the air outlet 5, and 13 is a suspension for suspending the air conditioner body 1. It is a bolt.

In the above-mentioned multi-blowing type ceiling-embedded air conditioner, the direction of the blown air can be adjusted by making the blowing blades 12 arranged at each air outlet 5 rotatable. This has been conventionally done (see, for example, Japanese Utility Model Laid-Open No. 60-178742).

(Problems to be Solved by the Invention) In the case of the air conditioner of the above-mentioned known example, when rotating the blowout blades 12 arranged at the air outlet 5,
It is general to control the wind direction of the blown airflow by setting the 12 as a motor that can be driven by a motor, and setting the angle and swinging the air by using a remote control or the like. A method of controlling the rotation of all the blowing blades 12, 12, 12, 12 by a single motor is used. In the case of the air conditioner having such a configuration, there may be a case where a good airflow distribution in the room cannot be obtained depending on the installation position.

That is, as shown in FIG. 17 (a) or (b), when the air conditioner X is installed at a position deviated to the left side of the room R,
When the angle of the blown airflow W is downward, as shown in FIG. 17 (a), a region Z where the conditioned air does not reach is formed on the right side portion of the room R. When the room is turned sideways, room R is shown as shown in Fig. 17 (b).
A region Z is formed below the left side of the area where conditioned air does not reach. In other words, when trying to control the blowout blades 12, 12, ..., Which are respectively arranged at the plurality of air outlets 5, 5, ... With a single drive control system, the airflow distribution failure as described above may occur. Will occur. Such poor air flow distribution has a great influence on the comfort of the occupants, and therefore it is the current situation.

The present invention has been made in view of the above points, and an object thereof is to devise the drive control of the blowing blades to obtain a good indoor airflow distribution corresponding to the installation position of the air conditioner. To do.

(Means for Solving the Problem) In the invention of claim 1, as means for solving the above problem, as shown in the drawings, a swingable blowout blade 12A for adjusting the direction of the blown air flow W is provided. , 12B, 12C, 12D respectively, and two air outlets arranged facing each other
In an air conditioner equipped with 5A, 5B, 5C, 5D, two pairs of adjacent air outlets 5A, 5B and 5C, 5D are provided with outlet blades 12A, 12B and 12C, 12D via connecting means 14, 14, respectively. The first and second blower blade groups A and B are connected to each other, and the motors 18A and 18B provided at a pair of diagonal positions with respect to the respective blower blade groups A and B are connected to each other to form the first and second blow blade groups A and B, respectively. Second drive system 19
A and 19B are formed, and motors are provided on both end sides of the blowing blades 12B located at the end of the first blowing blade group A and both end sides of the blowing blade 12D located at the end of the second blowing blade group B. Power contacting / separating means for contacting / separating the transmission of the driving force can be additionally provided, and these power contacting / separating means are provided at both end sides of the blowing blades 12B located at the ends of the first blowing blade group A and the second blowing blades. Depending on which of the two end sides of the outlet blade 12D located at the end of the blade group B is connected, the outlet blade 12B and the second outlet blade group B located at the end of the first outlet blade group A are connected. The outlet blade 12D located at the end is connected to the first drive system 1
9A or the second drive system 19B can be selected.

In the invention of claim 2, as a means for solving the above-mentioned problems, as shown in the drawings, in the air conditioner of claim 1, both ends of the first blowing blade group A and the second blowing blade group B are cranked. The first and second drive systems 19A and 19B are formed by connecting the motors 18A and 18B to the crankshafts 15 and 15 by connecting them via the shafts 15 and 15, respectively.
The oscillating shafts 16D, 16D and 16B, 16B at both ends of the outlet blades 12D, 12B of the second and first outlet blade groups B, A to which 8B is connected are made rotatable, and the oscillating shafts 16D, 16D and 16B It is possible to selectively attach anti-rotation screws 26, 26 acting as power contacting / separating means to 16B and 16B.

In the invention of claim 3, as means for solving the above-mentioned problems, as shown in the drawings, in the air conditioner of claim 1, each connecting means 14 is connected to the adjacent blowing blades 12A, 12B or the blowing blades 12C. , Universal joints 25, 25 that are detachably attached to the swing center of 12D, and these universal joints 25,
The connecting rod 17 is detachably connected between the two, and the power contacting / separating means is composed of the universal joint 25.

In the invention of claim 4, as a means for solving the above-mentioned problems, as shown in the drawings, in the air conditioner of claim 1, the connecting means 14 is connected to the adjacent blowing blades 12A, 12B or the blowing blades 12C, 12C. Universal joints 25,25 that are detachably attached to the 12D swing center, and these universal joints 25,25
And a connecting rod (17) that is detachably connected therebetween, and the power contacting / separating means is composed of the connecting means (14) itself.

In the invention of claim 5, as means for solving the above-mentioned problems, as shown in the drawings, swingable blowout blades 12A, 12B, 12C, 12D for adjusting the direction of the blown air flow W are provided respectively. And two air outlets arranged opposite each other
In an air conditioner equipped with 5A, 5B, 5C, 5D, two pairs of adjacent air outlets 5A, 5B and 5C, 5D are provided with outlet blades 12A, 12B and 12C, 12D via connecting means 14, 14, respectively. Positions where one air outlet 5D is sandwiched between the first and second outlet blade groups A and B which are connected to each other and the end of the first outlet blade group A and the connecting means 14 of the second outlet blade group B. The two motors 18A and 18B provided in the
9A and 19B are configured, and the first bearing member 28 that is co-rotatable and detachable and the non-co-rotatable and detachable to the swing shafts 16D and 16D at both ends of the blowing blade 12D sandwiched between the motors 18A and 18B. A second bearing member 29 which is interchangeably fitted to form a first power contacting / separating means by the first and second bearing members 28, 29, and is located at the end of the first blowing blade group A. A second power contact / separation means for contacting / separating the transmission of the motor driving force can be attached to both ends of the blowing blade 12B.
Depending on which side of the outlet blades 12B located at the end of the first outlet blade group A, the second power contacting / separating means is connected to, the outlet blades located at the end of the first outlet blade group A. It is possible to select which of the first drive system 19A and the second drive system 19B the 12B belongs to.

(Operation) According to the invention of claim 1, the following operation is obtained by the above means.

That is, each of the two air outlets 5A, 5B, 5C is provided with two oscillating blower blades 12A, 12B, 12C, 12D for adjusting the direction of the blown air flow W, which are arranged to face each other. In an air conditioner equipped with 5D, 5D, two adjacent pairs of air outlets 5A, 5B
And 5C, 5D blowing blades 12A, 12B and 12C, 12D are respectively connected via connecting means 14, 14 to form first and second blowing blade groups A, B and respective blowing blade groups A, B To the first and second drive systems 19A and 19B by connecting the motors 18A and 18B provided at a pair of diagonal positions with respect to each other, and at the end of the first blowing blade group A. Power contact / separation means for contacting / separating the transmission of the motor driving force can be attached to both ends of the blade 12B and both ends of the outlet blade 12D located at the end of the second outlet blade group B, respectively.
These power contacting / separating means are provided on either side of both end sides of the blowing blades 12B located at the end of the first blowing blade group A and both end sides of the blowing blade 12D located at the end of the second blowing blade group B. Depending on whether they are connected, the blower blades 12B located at the ends of the first blower blade group A and the blower blades 12D located at the end of the second blower blade group B are connected to the first drive system 19A and the second drive system. 19B
By making it possible to select which of
The blowing blade 12B located at the end of the first blowing blade group A and the blowing blade 12D located at the end of the second blowing blade group B are connected to the first drive system 19A only by changing the attached position of the power contacting / separating means. And the second drive system 19B and the second drive system 19B and the first drive system 19A, respectively.

According to the invention of claim 2, the following effects can be obtained by the above means.

That is, in the air conditioner according to claim 1, both ends of the first blowing blade group A and the second blowing blade group B are connected to the crankshaft 1
The first and second drive systems 19A and 19B are connected to the crankshafts 15 and 15 by connecting the motors 18A and 18B to the crankshafts 15 and 15, and the motors 18A and 18B are connected. The swinging shafts 16D, 16D and 16B, 16B at both ends of the blowing blades 12D, 12B of the second and first blowing blade groups B, A are rotatable, and the swinging shafts 16D, 16D and 16B, 16B are powered by the power. Since the rotation stop screws 26, 26 acting as the contacting / separating means can be selectively attached, the first operation is performed by the interchangeable operation of the rotation stop screws 26.
The selected ones of the blowing blades 12A, 12B constituting the driving system 19A and the selected ones of the blowing blades 12C, 12D constituting the second driving system 19B are separated from the first driving system 19A and the second driving system 19B, respectively. Are connected to the second drive system 19B and the first drive system 19A.

According to the invention of claim 3, the following effects can be obtained by the above means.

That is, in the air conditioner according to claim 1, the connecting means 14 are connected to the adjacent blowing blades 12A and 12B or the blowing blades 12C and 1C.
It is composed of universal joints 25 and 25 that are detachably attached to the center of swing of 2D and a connecting rod 17 that is detachably connected between these universal joints 25 and 25. Since the universal joint 25 is used, the blowout blades 12A and 12B constituting the first drive system 19A are selected by the interchangeable operation of the universal joint 25 and the second drive system 19B.
The selected ones of the blowing blades 12C and 12D constituting the above are separated from the first drive system 19A and the second drive system 19B and connected to the second drive system 19B and the first drive system 19A, respectively.

According to the invention of claim 4, the following effects can be obtained by the above means.

That is, in the air conditioner according to claim 1, the connecting means.
14 adjacent to the outlet blades 12A, 12B or the outlet blades 12C, 12D
Universal joint detachably attached to the swing center of
25, 25 and a connecting rod 17 detachably connected between these universal joints 25, 25, and the power contacting / separating means is composed of the connecting means 14 itself, so that the connecting means 14 By the compatible operation, the selected ones of the blowing blades 12A, 12B constituting the first drive system 19A and the selected ones of the blowing blades 12C, 12D constituting the second drive system 19B are the first driving system 19A.
And the second drive system 19B and the second drive system 19B and the first drive system 19A, respectively.

According to the invention of claim 5, the following effects can be obtained by the above means.

That is, each of the two air outlets 5A, 5B, 5C is provided with two oscillating blower blades 12A, 12B, 12C, 12D for adjusting the direction of the blown air flow W, which are arranged to face each other. In an air conditioner equipped with 5D, 5D, two adjacent pairs of air outlets 5A, 5B
And 5C, 5D blowing blades 12A, 12B and 12C, 12D are respectively connected via connecting means 14, 14 to form first and second blowing blade groups A, B, and ends of the first blowing blade group A. Section and second connecting means 14 of the second blowing blade group B, the two motors 18A, 18B provided at positions sandwiching one air outlet 5D are connected to form the first and second drive systems 19A, 19B. The blowing blade 12D that is configured and is sandwiched between the motors 18A and 18B.
A first bearing member 28 that is co-rotatable and removable and a second bearing member 29 that is non-co-rotatable and removable are interchangeably fitted to the swing shafts 16D, 16D at both ends, and the first and second
The bearing members 28, 29 constitute a first power contacting / separating means, and for contacting / separating the transmission of the motor driving force to both ends of the blowing blade 12B located at the end of the first blowing blade group A. A second power contacting / separating means can be additionally provided, and the first power contacting / separating means is connected to the side of the outlet blades 12B located at the end of the first outlet blade group A to determine the first The blowing blades 12B located at the ends of the blowing blade group A are connected to the first drive system 19A.
It is possible to select which of the second drive system 19B and the second drive system 19B to belong to.
By the interchangeable operation of the second bearing members 28, 29, the blowout blade 12D is selectively connected to the first drive system 19A or the second drive system 19B, and also as the second power contact / separation means. By the compatible operation of the connecting means 14 acting,
A selected one of the blowing blades 12A and 12B (that is, the blowing blade 12B) that configures the first drive system 19A and a selected one of the blowing blades 12C and 12D that configures the second drive system 19B (that is, the blowing blade 12
D) is separated from the first drive system 19A and the second drive system 19B, and is connected to the second drive system 19B and the first drive system 19A, respectively.

(Effect of the invention) According to the invention of claim 1, it has swingable blowout blades 12A, 12B, 12C, 12D for adjusting the direction of the blown air flow W, respectively, and are arranged opposite to each other. Two air outlets
In an air conditioner equipped with 5A, 5B, 5C, 5D, two pairs of adjacent air outlets 5A, 5B and 5C, 5D are provided with outlet blades 12A, 12B and 12C, 12D via connecting means 14, 14, respectively. The first and second blower blade groups A and B are connected to each other, and the motors 18A and 18B provided at a pair of diagonal positions with respect to the respective blower blade groups A and B are connected to each other to form the first and second blow blade groups A and B, respectively. Second drive system 19
A and 19B are formed, and motors are provided on both end sides of the blowing blades 12B located at the end of the first blowing blade group A and both end sides of the blowing blade 12D located at the end of the second blowing blade group B. Power contacting / separating means for contacting / separating the transmission of the driving force can be additionally provided, and these power contacting / separating means are provided at both end sides of the blowing blades 12B located at the ends of the first blowing blade group A and the second blowing blades. Depending on which of the two end sides of the outlet blade 12D located at the end of the blade group B is connected, the outlet blade 12B and the second outlet blade group B located at the end of the first outlet blade group A are connected. The outlet blade 12D located at the end is connected to the first drive system 1
Since it can be selected which of 9A and the second drive system 19B is to belong to, the blowing blades 12B located at the end of the first blowing blade group A can be simply changed by changing the attachment position of the power contacting / separating means. And the blowoff blades 12D located at the ends of the second blowoff blade group B are separated from the first drive system 19A and the second drive system 19B and connected to the second drive system 19B and the first drive system 19A, respectively. Therefore, by controlling the blowing blades by the two independent drive systems, there is an excellent effect that a good variety of indoor airflow distribution corresponding to the installation position of the air conditioner can be obtained.

According to the invention of claim 2, in the air conditioner according to claim 1, both ends of the first blowing blade group A and the second blowing blade group B are connected via the crankshafts 15 and 15, and the crankshaft 15 is connected. , 15 are connected to motors 18A, 18B to form first and second drive systems 19A, 19B, and the motors 18A, 1B are
The oscillating shafts 16D, 16D and 16B, 16B at both ends of the outlet blades 12D, 12B of the second and first outlet blade groups B, A to which 8B is connected are made rotatable, and the oscillating shafts 16D, 16D and 16B Since it has become possible to selectively attach the rotation stopping screws 26, 26 acting as power contacting / separating means to the 16 and 16B, the blowout blade 12A constituting the first drive system 19A can be operated by the interchange operation of the rotation stopping screws 26. , 12B selected and the blow-off blades 12 constituting the second drive system 19B
The selected one of C and 12D is the first drive system 19A and the second drive system
The second drive system 19B and the first drive system are separated from 19B respectively.
Each of them can be connected to the drive system 19A, and the first operation is made possible by an extremely simple means such as interchangeable operation of the rotation stop screw 26.
Also, there is an excellent effect that the combination of the blowing blades that form the second drive system 19A, 19B can be set.

According to the invention of claim 3, in the air conditioner of claim 1, each connecting means 14 is detachably attached to the swing center of the adjacent blowing blades 12A, 12B or the blowing blades 12C, 12D. Universal joints 25, 25 and these universal joints 25,
The connecting rod 17 is detachably connected between the two 25, and the power contacting / separating means is composed of the universal joint 25. Therefore, the interchangeable operation of the universal joint 25 constitutes the first drive system 19A. The selected one of the blower blades 12A, 12B and the selected one of the blower blades 12C, 12D forming the second drive system 19B are separated from the first drive system 19A and the second drive system 19B, respectively, and the second drive is performed. It can be connected to the system 19B and the first drive system 19A, respectively, and the first and second drive systems 19A, 19A, 19
There is an excellent effect that the combination of the blowing blades that form B can be set.

According to the invention of claim 4, in the air conditioner according to claim 1, the connecting means 14 is detachably attached to the swing center of the adjacent blowing blades 12A, 12B or the blowing blades 12C, 12D. Joints 25,25 and these universal joints 25,25
Since the power contacting / separating means is constituted by the connecting means 14 itself, the first drive system 19 is formed by the interchangeable operation of the connecting means 14.
The selected one and the second of the blowing blades 12A, 12B that constitute A
A selected one of the blowing blades 12C and 12D that form the drive system 19B can be separated from the first drive system 19A and the second drive system 19B and connected to the second drive system 19B and the first drive system 19A, respectively. Therefore, there is an excellent effect that the combination of the blowing blades forming the first and second drive systems 19A and 19B can be set by an extremely simple means such as the interchangeable operation of the connecting means 14.

According to the invention of claim 5, two airs each having swingable blowout blades 12A, 12B, 12C, 12D for adjusting the direction of the blown air flow W and arranged to face each other. Outlet
In an air conditioner equipped with 5A, 5B, 5C, 5D, two pairs of adjacent air outlets 5A, 5B and 5C, 5D are provided with outlet blades 12A, 12B and 12C, 12D via connecting means 14, 14, respectively. Positions where one air outlet 5D is sandwiched between the first and second outlet blade groups A and B which are connected to each other and the end of the first outlet blade group A and the connecting means 14 of the second outlet blade group B. The two motors 18A and 18B provided in the
9A and 19B are configured, and the first bearing member 28 that is co-rotatable and detachable and the non-co-rotatable and detachable to the swing shafts 16D and 16D at both ends of the blowing blade 12D sandwiched between the motors 18A and 18B. A second bearing member 29 which is interchangeably fitted to form a first power contacting / separating means by the first and second bearing members 28, 29, and is located at the end of the first blowing blade group A. A second power contact / separation means for contacting / separating the transmission of the motor driving force can be attached to both ends of the blowing blade 12B.
Depending on which side of the outlet blades 12B located at the end of the first outlet blade group A, the second power contacting / separating means is connected to, the outlet blades located at the end of the first outlet blade group A. By making it possible to select which of the first drive system 19A and the second drive system 19B the 12B belongs to, the first and second bearing members 28, 29 that act as the first power contact / separation means can be selected. By the compatible operation, the blowoff blade 12D is selectively connected to the first drive system 19A or the second drive system 19B, and the compatible operation of the connecting means 14 acting as the second power contact / separation means is performed. , Blow-off blades 12 constituting the first drive system 19A
Selected A, 12B (ie blow-off blade 12B) and second
A selected one of the blowing blades 12C and 12D (that is, the blowing blade 12D) that constitutes the driving system 19B is separated from the first driving system 19A and the second driving system 19B, respectively, and the second driving system 19B and the first driving system 19A, respectively, so that the first and second bearing members 28 and 29 can be operated interchangeably and / or
There is an excellent effect that the combination of the blowing blades forming the first and second drive systems 19A and 19B can be set by an extremely simple means such as the interchangeable operation of the connecting means 14.

In addition, in the case of the invention of claim 5, since the connecting means 14 itself is operated to be compatible, a part of the connecting means (for example, the connecting rod) remains at the portion where the power transmission is disconnected after the compatible operation. There is also an advantage that a bearing or the like for supporting the connecting means is not required.

(Examples) Hereinafter, some preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Embodiment 1 FIGS. 1 and 2 show an air conditioner according to Embodiment 1 of the present invention. The present embodiment corresponds to the inventions of claims 1 and 2. The air conditioner of the present embodiment has almost the same configuration as that described in the above-mentioned prior art (that is, the one shown in FIG. 15 and FIG. 16). Detailed description is omitted.

In the case of the present embodiment, the four air outlets 5A, 5B, 5C, 5 formed on the decorative panel 2 (two arranged in opposition to each other).
D has a blower blade 1 for adjusting the direction of the blown air flow.
2A, 12B, 12C and 12D are swingably supported.

The blowing blades 12A, 12B and 12C, 12D arranged at the adjacent air outlets 5A, 5B and 5C, 5D have connecting means 14, 14 described later.
Are connected to each other to form a first blowing blade group A and a second blowing blade group B, respectively. And these first
And a pair of diagonal positions at the end portions of the second blowing blade groups A and B (specifically, the swing shafts 16A and 16A and 16C and 16C of the blowing blades 12A and 12C that are not connected). Two motors provided
18A and 18B are connected to each other via crankshafts 15 and 15, and each of them constitutes first and second drive systems 19A and 19B. Both ends of each of the crankshafts 15 have swing shafts 16A, 16D of the blowing blades 12A, 12D via removable cross-shaped universal joints 25, 25.
And swinging shafts 16B and 16C of the blowing blades 12B and 12C, respectively. Further, power transmission mechanisms 22 and 22 including links 20 and 21 are provided between the motors 18A and 18B and the crank shafts 15 and 15, respectively.

Each of the connecting means 14 is a connecting rod 17 having the same shape as the crank shaft 15, and detachably attached to both ends of the connecting rod 17 and swinging shafts 16A and 16B of the blowing blades 12A and 12B and a blowing blade 12C. , 12D swing shafts 16C, 16D and cross-shaped universal joints 25, 25 which are detachably attached.

On the other hand, the swing shafts 16A, 16A and 16C, 16C at both ends of the blowout blades 12A, 12C are rotatable together with the blowoff blades 12A, 12C, while the swing shafts 16B, 16B at both ends of the blowout blades 12B, 12D. And 16
D and 16D are non-rotatable (that is, rotatable) with respect to the blowing blades 12B and 12D. That is, the swing shaft 16A,
16C is integrally projected from both ends of the blowing blades 12A, 12C, while the swing shafts 16B, 16B and 16D, 16D are the blowing blades 12B,
The bearings 23, 23 projecting from both ends of the 12D are rotatably supported. Each of the bearing portions 23 is formed with a screw hole 24 penetrating in the radial direction. With respect to these screw holes 24, 24, the swing shafts 16B, 16B and 16D,
Detent screws 26, 26 for detenting 16D are selectively screwed (see Fig. 2). That is, in the state where the rotation preventing screws 26, 26 are screwed into the screw holes 24, 24 of the bearing portions 23, 23 located on the coupling side of the blowoff blades 12B, 12D, the first drive system 19A including the motor 18A and the motor The second drive system 19B including 18B is to be constructed. The rotation preventing screws 26, 26 are bearing portions 23, 23 located on the non-coupling side of the blowoff blades 12B, 12D.
When it is screwed into the screw holes 24, 24 of
2B and 12D are separated from the first drive system 19A and the second drive system 19B, respectively, and the second drive system 19B (that is, the motor 1
8B) and the first drive system 19A (that is, the motor 18A). That is, in this embodiment, the rotation stop screw 26 constitutes a power contacting / separating means for connecting / disconnecting the transmission of the motor driving force. Reference numeral 27 is a bearing that pivotally supports the crankshaft 15 and the connecting rod 17.

As described above, according to the present embodiment, the detent screws 26, 2
6, the screw holes 24, in the bearing portions 23, 23 of the blowing blades 12B, 12D,
By selectively screwing it against 24, the blowing blade
Since 12B and 12D are selectively connected to the first drive system 19A or the second drive system 19B, it is possible to perform various wind direction control of the blown air flow by the drive systems having different combinations of blowout blades. .

For example, as shown in FIGS. 6A and 6B, when the air conditioner X is installed on the left side of the room R, the angle of the blown airflow W is made different between the leftward and rightward directions. As a result, an extremely good air flow distribution can be obtained in the entire room R, and it is also possible to swing only the blown air flow W on the right side as shown in FIG. Further, as shown in FIG. 6C, when the air conditioner X is installed in the center of the room R, it is possible to make the angles of the blown air flows W on both the left and right sides the same. It is also possible to swing the blown air flow W.

In addition, by selecting the screwing position of one rotation stop screw 26,
Since the drive control system can be selected, it is possible to reliably prevent the first drive system 19A by the motor 18A and the second drive system 19B by the motor 19B from interfering with each other.

Embodiment 2 FIGS. 3 to 5 show Embodiment 2 of the present invention. The present embodiment corresponds to the inventions of claims 1 and 3.

In the case of this embodiment, all swing shafts 16A, 16B, 16C, 16D are
It is possible to rotate together with the blowing blades 12A, 12B, 12C, 12D. Further, the universal joint between the crankshafts 15 and 15 and the swing shafts 16B and 16D of the blowout blades 12B and 12D is omitted.

That is, in the case of the present embodiment, the universal joints 25, 25 forming part of the connecting means 14, 14 are removed, and the crankshafts 15, 15 and the swing shafts 16B, 16D of the blowout blades 12B, 12D are connected. In the state of being used as a member, the blowoff blades 12B and 12D are separated from the first drive system 19A and the second drive system 19B, respectively, and the second drive system 19B (that is, the motor 18B) and the first drive system 19A (that is, the , Motor 18A). That is, in this embodiment, the universal joint 25 constitutes a power contact / separation means for connecting / disconnecting the transmission of the motor driving force. Other configurations and effects are the same as those of the first embodiment, and therefore the description thereof will be omitted.

Alternatively, the connecting means 14 including the universal joint 25 itself may be used as a power contacting / separating means, and the power contacting / separating means may be selectively attached to both ends of the blowing blades 12B, 12D.

Embodiment 3 FIGS. 7 to 13 show Embodiment 3 of the present invention. The present embodiment corresponds to the invention of claim 5.

In the case of the present embodiment, the motor 18A is provided with the crankshaft 15 and the end portion of the first blowing blade group A (specifically, the non-coupling side of the swing shafts 16A, 16A of the blowing blades 12A). Universal joint 25
Is connected through the first drive system 19A to form a motor 18B.
Is connected to the connecting rod 17 that forms the connecting means 14 in the second blowing blade group B to form a second drive system 19B. That is, in this embodiment, the two motors 18A and 18B are
It is supposed to be located at both ends of the blowout blade 12D (in other words, provided at positions sandwiching one air outlet 5D). Further, in the case of this embodiment, the swing shafts 16A, 16A, 16B, 16B, 16C, 1 in the blowing blades 12A, 12B, 12C.
6C can rotate together with the blowing blades 12A, 12B, 12C. Further, on the swing shafts 16D, 16D at both ends of the blowoff blade 12D, a D-cut portion 30 and an annular engagement groove 31 formed on the inner circumference of the D-cut portion 30 are formed. A rotatable first bearing member 28 and a non-rotatable second bearing member 29 are interchangeably fitted in the moving shafts 16D, 16D (see FIGS. 8 to 11). ). The inner peripheral surface of the first bearing member 28 engages with the annular groove 31 at the time of fitting and insertion into the swing shaft 16D so as to prevent it from coming off, and with the D cut portion 30 of the swing shaft 16D. A convex portion 32 is formed so as to release the engagement according to the correspondence. On the other hand, on the inner peripheral surface of the second bearing member 29, there is formed an engaging surface 33 which engages with the D-cut portion 30 and can rotate together when being fitted into the swing shaft 16D (eighth embodiment). (See Figures to 11). That is, the first and second bearing members 28, 29
The blow-off blade 12D is compatible with the first drive system 19A.
Alternatively, it can be selectively connected to the second drive system 19B. That is, in the case of the present embodiment, the first and second bearing members 28 and 29 constitute the first power contact / separation means. Reference numeral 34 is a rotation preventing screw for fixing the second bearing member 29 to the swing shaft 16D.

On the other hand, the connecting means 14 constituting the first blowing blade group A can be used as a connecting member when connecting the swing shaft 16B of the blowing blade 12B and the swing shaft 16C of the blowing blade 12C. .
That is, the connecting means 14 that constitutes the first blowing blade group A is made compatible as a member for connecting the first drive system 19A and the second drive system 19B. That is, in the case of this embodiment, the connecting means 14 itself constitutes the second power contact / separation means.

The motors 18A and 18B in this embodiment are shown in FIG. 12 and FIG.
As shown in FIG. 3, the motor unit 35 is housed in the motor case 35 together with the power transmission mechanism 22.

That is, the motor 18A (or 18B) is installed in the motor housing portion 35a of the motor case 35 with the rotation shaft 37 thereof facing downward in the vertical direction. A cam disk 38, which forms part of the, is pivotally attached. A cam groove 39 is formed on the upper surface of the cam disk 38, and one end of the link 40, which is engaged with the crankshaft 15 (or the connecting rod 17), is formed in the cam groove 39 in a downward direction. A protruding engagement pin 41 is engaged. Sign
42 is a crankshaft 15 (or connecting rod 1
It is an engaging recess formed to engage 7). Therefore, the rotational force of the motor 18A (or 18B) is
After being converted into reciprocating motion of the link 40 via the cam groove 39 of 38, it is transmitted as a force for reciprocally rotating the crankshaft 15 (or the connecting rod 17). That is, in this embodiment, the power transmission mechanism is formed by the cam disk 38 and the link 40.
22 are configured. In the case of this embodiment,
The motor case 35 is formed with a guide portion 35b that guides the link 40 so as to move back and forth. 43 is a motor 1
Screws for attaching 8A (or 18B) to the motor case 35, 44 are detent screws for fixing the cam disk 38 to the rotating shaft 37, and 45 is a lead wire.

The other structure is the same as that of the first embodiment, and the description thereof is omitted.

In the case of the air conditioner of the present embodiment, it operates as described below.

This air conditioner is shipped with the first and second power contacting / separating means as shown in FIG. 14 (a).
The bearing members 28, 29 are swing shafts on the connection side of the blowoff blade 12D.
16D and the swing shaft 16D on the non-coupling side, respectively, and the blowing blades 12D are coupled to the second drive system 19B, while the coupling means 14 which is the second power contact / separation means.
Connects the outlet blades 12A and 12B to form the first drive system 19A. That is, the air flow W ₁ blown out from the air outlets 5A and 5B and the air flow W ₂ blown out from the air outlets 5C and 5D have different swing angles which are drive-controlled by two control systems, respectively. It has become.

Then, depending on the installation position of the air conditioner, the air flow W ₁ blown out from the air outlets 5A, 5B, 5D is set to the same swing control, and the air flow W ₂ blown out from the air outlet 5C is controlled in a different system. 14B, by making the first and second bearing members 28 and 29, which are the first power contacting / separating means, compatible with each other, the blowout blade 12D is moved to the first drive system. It may be connected to 19A and the connection means 14 as the second power contact / separation means may be maintained as it is.

Also, depending on the installation position of the air conditioner, the air outlet
Only the air flow W ₁ blown out from 5A is subjected to swing control of another system, and the air flow W ₂ blown out from the air outlets 5B, 5C, 5D
When the same swing control is desired, as shown in FIG. 14 (c), the connecting means 14 which is the second power contact / separation means is removed and used as a member for connecting the blowout blades 12B and 12C. As a result, the blowing blades 12B may be connected to the second drive system 19B, and the first and second bearing members 28, 29 that are the first power contact / separation means may be maintained as they are.

Furthermore, depending on the installation position of the air conditioner, the air flow W ₁ blown out from the air outlets 5A, 5D is set to the same swing control, and the air flow W ₂ blown out from the air outlets 5B, 5C is controlled in a different system. If it is desired to set, as shown in FIG. 14 (d), the first and second power contacting / separating means are provided.
By making the bearing members 28 and 29 compatible with each other, the blowing blade 12D
Is connected to the first drive system 19A, and the connecting means 14, which is the second power contacting / separating means, is removed, and the blowing blades 12B,
The outlet blade 12B may be connected to the second drive system 19B by using it as a member for connecting between 12C.

As described above, according to the present embodiment, the first and second bearing members 28, 2 that act as the first and second power contact / separation means.
It is possible to perform various blowout air flow control by an extremely simple means of operating the 9 and the connecting means 14 interchangeably.

The present invention is not limited to the configurations of the above-described embodiments, and it goes without saying that the design can be changed as appropriate without departing from the scope of the invention.

[Brief description of drawings]

FIG. 1 is a plan view of a decorative panel in an air conditioner according to a first embodiment of the present invention, FIG. 2 is a partial configuration diagram of blowout blades in the air conditioner shown in FIG. 1, and FIG. 3 is an embodiment of the present invention. The top view of the decorative panel in the air conditioner concerning Example 2.
FIG. 4 is a partial configuration diagram of the blowout blades in the air conditioner shown in FIG. 3, FIG. 5 is a perspective view of the universal joint portion, and FIGS. 6 (a), 6 (b), and 6 (c) show the air of the present invention. FIG. 7 is an explanatory view showing an example of indoor air flow distribution in the air conditioner, FIG. 7 is a perspective view of a decorative panel in the air conditioner according to the third embodiment of the present invention, and FIGS. 8 and 9 are air conditioners shown in FIG. FIG. 10 is a partial cross-sectional view and a partially exploded perspective view showing the structure of the connecting portion between the crankshaft (or the connecting rod) and the blowing blades, and FIGS. 10 and 11 are crankshafts (or the connecting shafts) in the air conditioner shown in FIG. Partial cross-sectional view and partial exploded perspective view showing the structure of the connecting portion between the rod) and the blowing blade, FIG.
FIG. 13 is an exploded perspective view and a longitudinal sectional view of the motor unit in the air conditioner shown in FIG. 7, and FIGS. 14 (a), (b),
(C) and (d) are explanatory views for explaining the operation procedure of the power contacting / separating means at the time of shipping and three types of installation of the air conditioner shown in FIG. 7, and FIG. 15 is a general ceiling-embedded 16 is a bottom view of the ceiling-embedded air conditioner shown in FIG. 15, and FIGS. 17 (a) and 17 (b) are examples of indoor air flow distribution in a conventional air conditioner. FIG. 5A to 5D ...... Air outlet 12A to 12D ...... Blade 14 ...... Coupling means 16A to 16D ...... Swing shaft 17 ...... Coupling rod 18A, 18B ...... Motor 19A ...... First drive system 19B ...... No. 2 Drive system 25 ...... Universal joint 26 ...... Rotation stop screw 28 ...... First bearing member 29 ...... Second bearing member A ...... First blowing blade group B ...... Second blowing blade group

Claims (5)

[Claims] 1. A swingable blower blade (12A), (12B), (12C), (12) for adjusting the direction of blown air flow (W).
In an air conditioner that has two air outlets (5A), (5B), (5C), and (5D), each having D) and facing each other, two adjacent pairs of air Outlet (5A, 5
B), (5C, 5D) blowing blades (12A), (12B) and (12
C) and (12D) are connected to each other via connecting means (14) and (14) to form first and second blowing blade groups (A) and (B), and the respective blowing blade groups (A). ), (B) and motors (18A), (18
B) are connected to each other to connect the first and second drive systems (19A),
(19B) and both end sides of the blowing blades (12B) located at the ends of the first blowing blade group (A) and the blowing blades located at the ends of the second blowing blade group (B) ( 12D) can be provided with power contacting / separating means for contacting / separating the transmission of the motor driving force, and these power contacting / separating means are located at the ends of the first blowing blade group (A). The first blower blade group (A) depending on which side of the blower blades (12B) is connected to the both end sides of the blower blades (12B) and the both end sides of the blower blades (12D) located at the ends of the second blower blade group (B). )
The blowing blades (12B) located at the end of the first driving system (19A) and the second driving system (19B) and the blowing blades (12D) located at the end of the second blowing blade group (B). An air conditioner characterized in that it can be selected to which of the above. 2. Both ends of the first blowing blade group (A) and the second blowing blade group (B) are connected via crankshafts (15), (15), and the crankshafts (15), (15). ) Is connected to motors (18A) and (18B) to form first and second drive systems (19A) and (19B), and
A), (18B) are connected to the second and first blower blade groups (B), blower blades (12D) of (A), swing shafts (16D), (16D) and (12B) at both ends. 16B) and (16B) are rotatable, and the swing shafts (16D), (16D) and (16B),
The air conditioner according to claim 1, characterized in that the (16B) can be selectively attached with anti-rotation screws (26), (26) acting as power contacting / separating means. 3. A universal joint in which each of the connecting means (14) is detachably attached to the swing center of the adjacent blowing blades (12A), (12B) or the blowing blades (12C), (12D). 25) and (25) and a connecting rod (17) that is detachably connected between these universal joints (25) and (25), and the power contact / separation means includes the universal joint (25). ) The air conditioner according to claim 1, wherein the air conditioner comprises: 4. A universal joint (25) in which the connecting means (14) is detachably attached to the swinging centers of the adjacent blowing blades (12A), (12B) or the blowing blades (12C), (12D). ), (25) and a connecting rod (17) removably connected between these universal joints (25), (25), and the power contacting / separating means is composed of the connecting means (14) itself. The air conditioner according to claim 1, wherein the air conditioner is configured by: 5. Swingable blower blades (12A), (12B), (12C), (12) for adjusting the direction of blown air flow (W).
In an air conditioner that has two air outlets (5A), (5B), (5C), and (5D), each having D) and facing each other, two adjacent pairs of air Outlet (5A),
(5B) and (5C), (5D) blowing blades (12A), (12
B) and (12C), (12D) connecting means (14), (14)
To form first and second blowing blade groups (A) and (B), and to connect the end of the first blowing blade group (A) and the second blowing blade group (B) ( 14), the two motors (18A) and (18B) provided at positions sandwiching one air outlet (5D) are connected to form the first and second drive systems (19A) and (19B), respectively. Blowout blade (12D) that is configured and is sandwiched between the motors (18A) and (18B)
For the swing shafts (16D) and (16D) at both ends, a first bearing member (28) that is co-rotatable and detachable and a second bearing member (29) that is non-rotatable and detachable can be interchanged. Insert it,
The first and second bearing members (28), (29) constitute a first power contacting / separating means, and both ends of the blowing blades (12B) located at the ends of the first blowing blade group (A). A second power contacting / separating means for contacting / separating the transmission of the motor driving force can be additionally provided on the side, and the second power contacting / separating means is provided at the end of the first blowing blade group (A). Located blowout blade (12
Depending on which side of B) is connected, the outlet blade (12B) located at the end of the first outlet blade group (A) is connected to either the first drive system (19A) or the second drive system (19B). An air conditioner characterized in that it can be selected to belong to.